AT397049B - DEVICE FOR SEPARATING PARTICULAR MATERIAL - Google Patents

Abstract

PCT No. PCT/AT92/00162 Sec. 371 Date Jun. 2, 1994 Sec. 102(e) Date Jun. 2, 1994 PCT Filed Dec. 7, 1992 PCT Pub. No. WO93/11851 PCT Pub. Date Jun. 24, 1993.In an apparatus for separating particulate material from a particle-containing liquid, at least the section of the cylindrical housing (10) provided with perforations (5) is designed as a driveable drum sieve (2') so that the solid materials are optimally separated from the liquid phase and are at the same time freed from particulate impurities.

Description

AT397049B

The invention relates to a device for separating particle-like material from a particle-containing liquid, in which a drivable screw conveyor is arranged in a cylindrical housing provided with perforations at least in sections

A separating device in the form of a sieve drum is known, for example, from EP-379 185 A1, 5 which serves to screen waste or the like and is mounted at an angle of inclination and has perforations of different sizes. This sieve drum is used in particular for separation in two configurations, the material to be separated almost running through a zone of narrower and then further hole diameters.

DE-AS 2806861 discloses a rotary cylinder separating device for a mixture consisting of a granular material and impurities. The rotary cylinder is surrounded by a housing 10 and has projections which scoop up the impurities which are larger than the granular material and which are discharged into a collecting device arranged inside the housing.

US Pat. No. 4,582,202 shows a method for sorting bulk material containing unwanted material by means of rotation. Different materials are separated by varying the rotational speed, different materials being fed to different outputs. In order to achieve a complete separation, there is a continuous switch back and forth between two speeds.

GB-PS 2 239 824 in turn shows a screening machine for rock, using a cylinder comprising several sections with differently sized passage openings and rotating about its longitudinal axis. The mesh size increases from the side of the material feed, so that first the fine and then the coarse material falls through and is collected in containers arranged below the container.

Finally, FR-PS 2 594 724 shows a mobile sieving device for fine powdery products, with a feed funnel and a sieving and conveying device, to which an Archimedean screw connects, via which the product is fed to a post-treatment.

In known devices according to the preamble, the most important disadvantages are, firstly, that the separation of the solids from the liquid takes place only in a small part of the housing, as a result of which insufficient separation can be achieved and, moreover, the separation takes a lot of time due to the low throughput , and on the other hand in that most such devices have a complicated structure, which means that the acquisition costs for such a device are considerable and results in an increased susceptibility to failure due to the complexity. The aim of the invention is to avoid these disadvantages and to provide a device to propose the type mentioned in the introduction, in which on the one hand a good separation of the solid substances from the liquid phase is ensured and which is simple and inexpensive to produce and on the other hand has a high throughput

According to the invention, this is achieved in that at least that section of the cylindrical housing which has the perforations is designed as a drivable drum screen 35. The advantageous arrangement of the drivable drum screen, which forms part of the cylindrical housing, separates the solid particles present in the liquid from the solids are easily propelled by the screw conveyor. The throughput can be regulated in a simple manner by adjusting the rotational speed of the screw conveyor and can be adapted to the respective requirements. 40 It can be further provided that the cylindrical housing, which has perforations at least in sections, is preceded by a further cylindrical housing, which preferably has perforations over the entire circumferential surface and is likewise designed as a drivable drum screen

These measures advantageously ensure that the first separation of the solid particles, such as stones, household waste, industrial waste, rakes and / or screenings and the like, from the liquid phase takes place over the entire length of the 45 upstream drum screen, whereby fine particles such as B. sludge particles, fecal particles and the like remain in the liquid phase. The propulsion of the solids through this first drum sieve, which is arranged essentially horizontally or slightly in the direction of the downstream cylindrical housing, advantageously takes place in that the 50 particle-containing liquid which flows out through an inlet part into the drum sieve flows through it and thereby the solid Taking materials with it Since the drum screen is designed to be drivable and has perforations distributed over the entire lateral surface, high sieving rates can be achieved in a simple manner, with a high throughput being achieved in a correspondingly simple manner with the most extensive separation of the solid particles from the liquid phase. 55 It can advantageously be provided that a trough that shows perforations serves as a connecting element between the two housings

The formation of a perforated trough as a connecting element of the two housings results in the advantage that the liquid can additionally flow through these perforations and thereby further solid constituents are filtered out of the liquid, the solid materials collecting at the bottom of the 60 trough, where they are grasped by the screw conveyor and transported further.

In a further embodiment of the invention it can be provided that the two housings enclose an angle, which is preferably approximately 140 °, with one another. -2-

AT 397 049 B

This measure advantageously ensures that the entire particle-containing liquid flowing through the inlet part is circulated at least once, i.e. at least once in the area of the housing or in the area of the trough, through the perforations, so that the solid particles before they leave Any liquid sludge residues, 5 faecal residues and the like are removed from the liquid and the particle residues remain in the liquid.

According to a further feature of the invention, it can be provided that spray nozzles are arranged on the outer sides of the drum screens along at least one, but preferably along a plurality of jacket lines offset by approximately 60 ° from one another.

Through these measures, on the one hand, the perforations of the drum sieves are always cleaned and kept free of 10 particle residues, so that smearing or overgrowth of the perforations is prevented, and on the other hand, the entire amount of liquid in the device causes an additional flow, which facilitates rapid cleaning of the surface of the solid particles from particles of all kinds.

Furthermore, it can be provided that the screw conveyor and at least the section of the cylindrical housing, which is formed by the drum screen, are preferably driven at different speeds and in particular in opposite directions of rotation.

These measures advantageously ensure that the solids, which are carried along by the screw conveyor, are mixed several times along the conveying path and are pressed against the inner wall of the housing, as a result of which they are largely freed from the liquid. The 20 efficiency of the separation of the liquid is further increased by the fact that the housing can be set in a counter-rotation to the direction of rotation of the screw conveyor. The liquid then runs out of the housing in the area of the drum screen of the housing.

Furthermore, it proves to be advantageous that spray nozzles are arranged in the region of the drum sieve, which can be charged with water, whereby in addition to cleaning the perforations of the drum sieve, the 25 solids are also subjected to a final cleaning by the water flowing into the interior of the drum sieve, by particles still adhering are washed away.

The invention will now be explained in more detail with reference to the drawing, which schematically shows a device according to the invention.

The device has an inlet (1) for liquids containing solids such. B. Wastewater 30 from industry and household, sewers and the like., The inlet (1) opens into an obliquely downward inlet box (6) to the inlet (1) connects at one end to a drivable drum screen (2) which opens with its other end into a trough (11) which has perforations (5). The drum screen (2) is located entirely in the inlet box (6).

Opposite the drum screen (2), a cylindrical housing (10) opens into the trough (11), the 35 housing (10) and the drum screen (2) enclosing an angle of preferably approximately 140 degrees with one another. The housing (10) has a section with perforations (5), which forms a further drum screen (2 ') of the device according to the invention, this drum screen (2 *) also being located entirely in the inlet box (6), at least part of the Housing (10) which is formed by the drum screen (2 ') is drivable. However, a variant of the device according to the invention can also be provided, in which the entire housing (10) can be driven

The screw conveyor (3) runs in the housing (10) and also extends into the area of the trough (11) and is rotatably mounted in one of its bottom surfaces (13)

The solids are conveyed out of the trough (11) by means of the screw conveyor (3) and thus simultaneously out of the inlet box (6) in which the trough (11) is arranged and to the discharge end (4). 45 The solids are moved along the conveying path several times first in the area of the inlet box (6), which is partly filled with the incoming liquid, mixed with it, particles still adhering to the solid particles being washed off, and then in the area of spray nozzles (8) running along a or as can be seen in the figure, run along several surface lines on the outer sides of the drum screen (2 '), with spray water from the spray nozzles (8), which penetrates into the drum screen (2 *) 50 through the perforations (5) it removes dirt from the perforations so that the solids are subjected to a further final cleaning of any particles that may still be adhering.

In order to ensure that the solids are mixed several times, it is provided that the screw conveyor (3) and at least the drum screen (2 ') of the housing (10) are driven at preferably different speeds and preferably in opposite directions of rotation. 55 In the part of the housing (10) which is formed by the closed wall, the solids are pressed against the inner wall of the housing and against each other during transport through the screw conveyor (3), as well as by their own weight, so that they are largely from the liquid or be drained from the splash water.

The discharge end (4) then cleaned from particles and nearly dry solid particles, which, for. B. in collecting containers (12) and can be disposed of safely. 60 Also, spray nozzles (8) are provided on the outer sides of the drum screen (2) along at least one surface line, or, as not shown in the figure, along several surface lines offset by 60 degrees from one another, as a result of which the perforations (5 ) is prevented. -3-

Claims (6)

AT397049B The drum sieve (2) separates the solids from the particles to the east, which is accomplished by the incoming liquid from the spray nozzles (8), the rotation of the drum sieve (2) and the liquid in the inlet box by the solids inside the drum sieve (2) be mixed several times with the surrounding liquid. The solid particles are transported by the harsh flow in the inlet box (6) from the inlet part (1) to the outlet file (7). The connection between the two drum sieves (2) and (2 *) is formed by the trough (11), through the perforations (5) of which the liquid in the inlet box (6) flows unhindered, the solid particles in the bottom area of the trough (11) collect. According to other variants of the invention, not shown, it is also possible to design the device according to the invention without the drum screen (2) or without the drum screen (2) and without the trough (11). This proves to be particularly advantageous when a liquid that is only slightly contaminated or contains only a few solid particles is to be separated from it. The device according to the invention achieves a rapid separation of the solid substances from the liquid, the solid substances being cleaned of particles and getting into a collecting container 15 in an approximately dry state. 20 PATENT CLAIMS 1. Device for separating particle-like material from a particle-containing liquid, in which a drivable screw conveyor is arranged in a cylindrical housing provided with perforations, at least in sections, characterized in that at least that portion of the cylindrical housing (10) that the perforations ( 5) has a drivable drum screen (2 '). 30th 2. Apparatus according to claim 1, characterized in that the, at least in sections perforations (5) having cylindrical housing (10) another, preferably over the entire lateral surface, perforations (5) having cylindrical housing is arranged, which also as a drivable drum screen (2) is formed. 35 3. Apparatus according to claim 1 and 2, characterized in that a trough (11), the perforations (5) has, serves as a connecting element of the two housings (2,10) with each other. 4. Device according to one of claims 1 to 3, characterized in that the two housings (2, 10) 40 form an angle, which is preferably approximately 140 °, with one another. 5. Device according to one of claims 1 to 4, characterized in that on the outer sides of the drum screens (2,2 ') spray nozzles (8) along at least one, but preferably along a plurality of mutually offset by 60 ° surface lines are arranged. 45 6. Device according to one of claims 1 to 5, characterized in that the screw conveyor (3) and at least the portion of the cylindrical housing (10) which is formed by the drum screen (2 ') with preferably different speeds and in particular in opposite directions Direction of rotation are driven. 50 For this 1 sheet drawing -4-